Implementing Soil Health Improvement Techniques in Regenerative Agriculture Using IoT-Enabled NPK Sensing for Precision Nutrient Management

Summary

This paper investigates the integration of Internet of Things (IoT)-enabled nitrogen, phosphorus, and potassium (NPK) sensing technologies within regenerative agriculture frameworks as a means of improving precision nutrient management and soil health. The study likely demonstrates how real-time soil monitoring can reduce nutrient over-application and support the transition to more sustainable farming practices. Published in SHS Web of Conferences, the work represents an applied, technology-focused contribution to the intersection of digital agriculture and regenerative soil management.

UK applicability

Whilst the study does not appear to be UK-specific, the principles of IoT-enabled precision nutrient management are broadly applicable to UK arable and mixed farming systems, particularly in the context of the Sustainable Farming Incentive and regulatory pressure to reduce diffuse nutrient pollution under the Farming Rules for Water.

Key measures

Soil NPK levels (mg/kg); soil health indicators; sensor accuracy or responsiveness; nutrient use efficiency

Outcomes reported

The study likely examined the performance of IoT-based soil NPK sensors in monitoring and guiding nutrient management under regenerative agriculture practices, reporting improvements in soil health indicators and nutrient use efficiency. It probably evaluated how real-time sensor data can inform precision fertilisation decisions to support soil health outcomes.

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